Add to ORKGWe demonstrate the power of 2D tensor networks for obtaining large deviation functions of dynamical observables in a classical nonequilibrium setting. Using these methods, we analyze the previously unstudied dynamical phase behavior of the fully 2D asymmetric simple exclusion process with biases in both the x and y directions. We identify a dynamical phase transition, from a jammed to a flowing phase, and characterize the phases and the transition, with an estimate of the critical point and exponents
The classical Heisenberg model in two spatial dimensions constitutes one of the most paradigmatic sp...
We use a neural-network ansatz originally designed for the variational optimization of quantum syste...
Driven diffusive systems have provided simple models for nonequilibrium systems with nontrivial stru...
The open asymmetric simple exclusion process (ASEP) has emerged as a paradigmatic model of nonequili...
We use projected entangled-pair states (PEPS) to calculate the large deviation statistics of the dyn...
We use projected entangled-pair states (PEPS) to calculate the large deviations (LD) statistics of t...
We apply variational tensor-network methods for simulating the Kosterlitz-Thouless phase transition ...
Driven diffusive systems may undergo phase transitions to sustain atypical values of the current. Th...
We thank Ruben Hurtado-Gutierrez and Pablo Hur-tado for insightful discussions. The research leading...
Driven diffusive systems may undergo phase transitions to sustain atypical values of the current. Th...
Here we demonstrate that tensor network techniques | originally devised for the analysis of quantum ...
Over the last few decades the interests of statistical physicists have broadened to include the deta...
The classical Heisenberg model in two spatial dimensions constitutes one of the most paradigmatic sp...
The classical Heisenberg model in two spatial dimensions constitutes one of the most paradigmatic sp...
We use a neural-network ansatz originally designed for the variational optimization of quantum syste...
The classical Heisenberg model in two spatial dimensions constitutes one of the most paradigmatic sp...
We use a neural-network ansatz originally designed for the variational optimization of quantum syste...
Driven diffusive systems have provided simple models for nonequilibrium systems with nontrivial stru...
The open asymmetric simple exclusion process (ASEP) has emerged as a paradigmatic model of nonequili...
We use projected entangled-pair states (PEPS) to calculate the large deviation statistics of the dyn...
We use projected entangled-pair states (PEPS) to calculate the large deviations (LD) statistics of t...
We apply variational tensor-network methods for simulating the Kosterlitz-Thouless phase transition ...
Driven diffusive systems may undergo phase transitions to sustain atypical values of the current. Th...
We thank Ruben Hurtado-Gutierrez and Pablo Hur-tado for insightful discussions. The research leading...
Driven diffusive systems may undergo phase transitions to sustain atypical values of the current. Th...
Here we demonstrate that tensor network techniques | originally devised for the analysis of quantum ...
Over the last few decades the interests of statistical physicists have broadened to include the deta...
The classical Heisenberg model in two spatial dimensions constitutes one of the most paradigmatic sp...
The classical Heisenberg model in two spatial dimensions constitutes one of the most paradigmatic sp...
We use a neural-network ansatz originally designed for the variational optimization of quantum syste...
The classical Heisenberg model in two spatial dimensions constitutes one of the most paradigmatic sp...
We use a neural-network ansatz originally designed for the variational optimization of quantum syste...
Driven diffusive systems have provided simple models for nonequilibrium systems with nontrivial stru...